A wireless powering and charging system is described. Such a system comprises a radio frequency transmitter (typically a home-appliance sized unit on a desk or a shelf) and a receiver (typically a small mobile unit carried by the user). When the user is in range of the transmitter, charging or powering can take place in the mobile unit.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A wireless power reception system, comprising: a receiver coil disposed about a perimeter of a mobile device; and a wireless power receiver circuit coupled to the receiver coil, the wireless power receiver circuit and the receiver coil configured to receive power via a wireless field at a first frequency, the received wireless power sufficient to charge or power a load, the wireless power receiver circuit and the receiver coil having an inductance and a capacitance such that the wireless power receiver circuit and the receiver coil are configured to resonate at a resonant frequency that is substantially equal to the first frequency, the receiver coil having a ferrite-less core being resistant to degradation of a resonant condition of the receiver coil and the wireless power receiver circuit from permanent magnets in the mobile device.
2. A wireless power reception system as in claim 1 , further comprising a tuning part configured to tune at least one component in said wireless power receiver circuit to adjust the resonant frequency.
3. A wireless power reception system as in claim 2 , wherein said tuning part is configured to tune a component of said wireless power receiver circuit to adjust for an error caused by variations in component values.
4. A wireless power reception system as in claim 1 , wherein the wireless power receiver circuit includes a capacitor, and wherein said capacitor has a Q value greater than 1000.
5. A wireless power reception system as in claim 2 , wherein said tuning part comprises a MEMS based variable capacitor.
6. A wireless power reception system as in claim 1 , wherein the receiver coil includes an inductor, and wherein said inductor comprises a wire loop antenna.
7. A wireless power reception system as in claim 1 , wherein the receiver coil and the wireless power receiver circuit are configured to receive power via the wireless field from a wireless power transmitter.
8. A wireless power reception system as in claim 7 , wherein the transmitter includes a transmit coil, and wherein the receiver coil and the transmit coil are positioned such that the receiver coil is within the near field of the wireless field transmitted by the transmit coil, and wherein the transmit coil and the receiver coil are coaxial to one another.
9. A wireless power reception system as in claim 7 , wherein the transmitter includes a transmit coil, and wherein the receiver coil and the transmit coil are positioned such that the receiver coil is within the far field of the wireless field transmitted by the transmit coil, and wherein the transmit coil and the receiver coil are positioned adjacent to one another.
10. A method of receiving wireless power, comprising: receiving power with a receiver coil disposed about a perimeter of an electronic device and a wireless power receive circuit via a wireless field at a first frequency, the receiver coil having a ferrite-less core that is resistant to degradation of a resonant condition of the receiver coil and the wireless power receive circuit from permanent magnets in the mobile device, and the received wireless power sufficient to charge or power a load; and adjusting a component of the wireless power receive circuit to adjust at least one of an inductance and a capacitance of the wireless power receive circuit and the receiver coil such that the wireless power receive circuit and the receiver coil are configured to resonate at a resonant frequency that is substantially equal to the first frequency.
11. The method as in claim 10 , wherein adjusting a component comprises tuning the component of said wireless power receive circuit to adjust for an error caused by variations in component values.
12. An apparatus for receiving power via a wireless field, comprising: means for receiving power with via the wireless field at a first frequency, the means for receiving power comprising a ferrite-less core and configured to be disposed about a perimeter of an electronic device and resistant to degradation of a resonant condition of the means for receiving power from permanent magnets in the electronic device, and the received power sufficient to charge or power a load; and means for adjusting a component of the means for receiving power to adjust at least one of an inductance and capacitance of the means for receiving power such that the means for receiving power is configured to resonate at a resonant frequency that is substantially equal to the first frequency.
13. The apparatus as in claim 12 , wherein the means for receiving power comprises a wireless power receive circuit and a receiver coil.
14. The apparatus as in claim 13 , wherein the means for adjusting a component comprises means for tuning the component of said wireless power receive circuit to adjust for an error caused by variations in component values.
15. The apparatus as in claim 12 , wherein the means for receiving power comprises an air core.
16. The system as in claim 1 , wherein the receiver coil comprises an air core.
17. The method as in claim 10 , wherein the receiver coil comprises an air core.
18. The method as in claim 10 , wherein the component of the wireless power receive circuit is tunable.
19. The apparatus as in claim 13 , wherein the component of the wireless power receive circuit is tunable.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
June 10, 2008
September 1, 2015
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